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机构地区:[1]胜利石油管理局渤海钻井二公司,山东东营257200 [2]胜利石油管理局钻井工艺研究院,山东东营257017
出 处:《石油钻采工艺》2009年第5期33-35,39,共4页Oil Drilling & Production Technology
基 金:国家"863"项目"超深井钻井技术研究(编号:2006AA06A19-2)"课题部分内容
摘 要:水力因素是影响钻速最活跃的因素之一。为了最大限度地利用水力能量,提高超深井钻井速度,利用编制的软件,对影响水力能量利用效率各因素进行了分析。结果表明,超深井采用Ф139.7mm钻杆代替Ф127mm钻杆,1000m可减小泵压约0.6MPa;黏度每降低10mPa·s,泵压可降低0.4MPa左右;密度每增加0.1g/cm3,泵压增加0.8MPa左右;排量每增加1L/s,泵压增加1MPa以上。同时,分析了超深井钻井喷射钻井的可行性及实现方式,指出超深井水力参数设计需按最小流量法设计,为提高超深井钻井速度提供了有益的参考。Hydraulic factor is one of the most important parameters which can affect ROE To optimize the utilization of hydraulic power and increase the ROP for ultra-deep wells, all of the factors that can affect the utilization efficiency of the hydraulic power were analyzed. The results demonstrate that if Ф139.7 mm drill pipe is used instead of Ф 127 mm drill pipe, the pump pressure would reduce 0.6 MPa/1000 m; and pump pressure would reduce about 0.4 MPa with drilling fluid viscosity decreasing 10 mps; pump pressure increases 0.8 MPa with drilling fluid density increasing 0.1 g/cm3; and pump pressure increases more than 1 MPa with pump rate increasing 1 L/s. Meanwhile, the feasibility and implement method of jetting drilling on ultra-deep wells was analyzed, and point out that the ultra-deep well hydraulic parameters design should follow the minimum flow rate designing method, and also provides good reference for ROP improvement of ultra-deep wells.
分 类 号:TE245[石油与天然气工程—油气井工程]
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